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I have a problem understanding function types (they appear e.g. as the Signature template parameter of a std::function):

typedef int Signature(int); // the signature in question

typedef std::function<int(int)>  std_fun_1;
typedef std::function<Signature> std_fun_2;

static_assert(std::is_same<std_fun_1, std_fun_2>::value,
              "They are the same, cool.");

int square(int x) { return x*x; }

Signature* pf = square;   // pf is a function pointer, easy
Signature f;              // but what the hell is this?
f(42);                    // this compiles but doesn't link

The variable f can not be assigned, but can be called. Weird. What is it good for, then?

Now if I const-qualify the typedef, I can still use it to build further types but apparently for nothing else:

typedef int ConstSig(int) const;

typedef std::function<int(int) const>  std_fun_3;
typedef std::function<ConstSig>        std_fun_4;

static_assert(std::is_same<std_fun_3, std_fun_4>::value,
              "Also the same, ok.");

ConstSig* pfc = square; // "Pointer to function type cannot have const qualifier"
ConstSig fc;            // "Non-member function cannot have const qualifier"

What remote corner of the language have I hit here? How is this strange type called and what can I use it for outside of template parameters?

1
  • The standard simply allows you to declare functions through a typedef to their signature (actually, function type). – Xeo Jul 3 '13 at 11:12
27

Here's the relevant paragraph from the Standard. It pretty much speaks for itself.

8.3.5/10

A typedef of function type may be used to declare a function but shall not be used to define a function (8.4).

Example:

typedef void F();
F  fv;         // OK: equivalent to void fv();
F  fv { }      // ill-formed
void fv() { }  // OK: definition of fv

A typedef of a function type whose declarator includes a cv-qualifier-seq shall be used only to declare the function type for a non-static member function, to declare the function type to which a pointer to member refers, or to declare the top-level function type of another function typedef declaration.

Example:

typedef int FIC(int) const;
FIC f;               // ill-formed: does not declare a member function
struct S {
  FIC f;             // OK
};
FIC S::*pm = &S::f;  // OK
3
  • Excellent. This is exactly the information I was looking for. Thanks. – marton78 Jul 3 '13 at 11:22
  • Thanks! I should have noticed it earlier. – Bikineev Aug 14 '14 at 18:40
  • @Nik-Lz True, it's not very common, but it's one of those things where there wasn't a strong reason to specifically forbid it either. Also, note that since template type parameters follow most of the same rules as typedefs, in std::function<double(MyClass&, int)>, the class template std::function is essentially using a function typedef. – aschepler Sep 22 '18 at 14:31
3

In your case, std_fun_1 and std_fun_2 are identical objects with identical type signatures. They are both std::function<int(int)>, and can both hold function pointers or callable objects of type int(int).

pf is a pointer to int(int). That is, it serves the same basic purpose as std::function, but without the machinery of that class or support for instances of callable objects.

Similarly, std_fun_3 and std_fun_4 are identical objects with identical type signatures, and can both hold function pointers or callable objects of type int(int) const.

Also similarly, pfc is a function pointer of type int(int) const, and can hold pointers to functions of that type, but not instances of callable objects.

But f and fc are function declarations.

The line:

Signature fc;

Is identically equivalent to:

int fc(int) const;

Which is a declaration for a function named fc of type int(int) const.

There's nothing strange going on here. You've simply happened upon syntax you probably already understand, from a perspective you're not accustomed to.

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